J. Spottorno scite author profile

J. Spottorno

5Publications

42Citation Statements Received

52Citation Statements Given

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Affiliations

Spanish National Research Council, Universidad Complutense de Madrid, Renfe Operadora (Spain)

Publications

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A simple vibrating sample magnetometer for macroscopic samples

López-Domínguez

Quesada

Guzmán-Mínguez

et al. 2018

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We here present a simple model of a vibrating sample magnetometer (VSM). The system allows recording magnetization curves at room temperature with a resolution of the order of 0.01 emu and is appropriated for macroscopic samples. The setup can be mounted with different configurations depending on the requirements of the sample to be measured (mass, saturation magnetization, saturation field, etc.). We also include here examples of curves obtained with our setup and comparison curves measured with a standard commercial VSM that confirms the reliability of our device.

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Time dependence of electrical bioimpedance on porcine liver and kidney under a 50 Hz ac current

Spottorno¹,

Multigner²,

Rivero³

et al. 2008

Phys. Med. Biol.

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The purpose of this work is to study the changes of the bioimpedance from its 'in vivo' value to the values measured in a few hours after the excision from the body. The evolution of electrical impedance with time after surgical extraction has been studied on two porcine organs: the liver and the kidney. Both in vivo and ex vivo measurements of electrical impedance, measuring its real and imaginary components, have been performed. The in vivo measurements have been carried out with the animal anaesthetized. The ex vivo measurements have been made more than 2 h after the extraction of the organ. The latter experiment has been carried out at two different stabilized temperatures: at normal body temperature and at the standard preservation temperature for transplant surgery. The measurements show a correlation between the biological evolution and the electrical bioimpedance of the organs, which increases from its in vivo value immediately after excision, multiplying its value by 2 in a few hours.

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Magnetic Sensor for Early Detection of Heart Valve Bioprostheses Failure

Rivero¹,

García-Páez²,

Álvarez³

et al. 2007

Sen Lett

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In vivo measurements of electrical conductivity of porcine organs at low frequency: New method of measurement

Spottorno

Multigner

Rivero

et al. 2012

Bioelectromagnetics

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Calculations of the induced currents created in the human body by external electromagnetic fields would be more accurate provided that more realistic experimental values of the electrical properties of the body were available. The purpose of this work is to experimentally obtain values for the conductivity of living organs in conditions close to the real situation. Two-electrode in vivo measurements of the bioimpedance of some porcine organs have been performed. From these measurements and taking into account geometrical considerations, the electrical conductivity for the kidney, liver, heart, and spinal cord has been obtained and were found to be higher than the values reported in the literature. Furthermore, a new experimental procedure is proposed where the conductivity is determined from the values of the electrical potential and currents that are induced by an external electromagnetic field created by a coil placed close to the organ under study.

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Influence of electrodes on the 448 kHz electric currents created by radiofrequency: A finite element study

Spottorno

Vega

Buenaventura

et al. 2017

Electromagnetic Biology and Medicine

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Radiofrequency is a technology used in physical rehabilitation by physicians and physiotherapists for more than fifteen years, although there exist doubts on how it works. Indiba is a particular method that applies a voltage difference of 448 KHz between two electrodes, creating an electric current between them. These electrodes are an active one that is placed on different areas of the body and a passive one that is left on the same position during the treatment. There are two different types of active electrodes: the capacitive one and the resistive one. In this paper, it has been studied how the different electrodes affect the current density inside the body and thus how they affect the efficacy of the treatment. It shows how finite element calculations should help physicians in order to better understand its behavior and improve the treatments.

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J. Spottorno

A simple vibrating sample magnetometer for macroscopic samples

Time dependence of electrical bioimpedance on porcine liver and kidney under a 50 Hz ac current

Magnetic Sensor for Early Detection of Heart Valve Bioprostheses Failure

In vivo measurements of electrical conductivity of porcine organs at low frequency: New method of measurement

Influence of electrodes on the 448 kHz electric currents created by radiofrequency: A finite element study

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